The first is block-level binary stirring (randomization) that makes each protected system and device functionally identical but logically unique.

The second is control flow integrity (CFI), which protects against Return Oriented Programming (ROP) attacks, in which existing code is called out of order to become a hacking script. This prevents malware from changing how commands are executed and denies it the uniformity required to propagate.

By precluding an exploit from spreading across multiple devices and networks, RunSafe Security disrupts hacker economics and shifts the odds in favor of the defender. While other security solutions focus on preventing breaches with firewalls, anti-virus software, and intrusion protection, RunSafe assumes that hackers will eventually break in. Therefore, rather than reacting to compromised vulnerabilities following an exploit, our solution proactively prevents malware from being executed in the first place.

Unprotected Software Image

Software Dev Team NOT Security Team

Must Maintain Patches

Vulnerable to Zero-Day

RunSafe Transform Function

Patented Process

Binary Randomization

Control Flow Integrity

No Source Code Modification

Protected Software Image

Prevents Malware Proliferation

Deployed Easily

Blocks Zero-Day Exploits

Reduces Attack Vector

Read how we disrupt the traditional economics of cyberattacks and deny both routine and advanced techniques of attackers.

ABOUT RUNSAFE SECURITY, INC.

RunSafe Security protects vehicles from cyber attacks. For commercial and government fleets, we increase driver safety, reduce insurance costs, protect high value cargo, and secure sensitive data. For OEMs & Suppliers, we offer embedded security software to secure the supply chain so connected cars are protected cars. Without security, there is no mobility!